钌衍生物涂层微珠在不透明电极上的电致化学发光成像与模拟

Yanlong Feng, Wenshuai Zhou, Xiaofei Wang, Jian Zhang, Min Zou, Chengxiao Zhang and Honglan Qi*, 
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引用次数: 0

摘要

电致化学发光(ECL)成像以其高灵敏度、低背景、良好的时间和空间分辨率而在各个领域受到越来越多的关注。然而,通过俯视配置在不透明电极处对微型物体进行ECL成像受到反应物扩散和光传播的挑战。在这里,我们对钌衍生物涂层聚苯乙烯微珠进行了成像和数值模拟(Ru1-PS@MB)在玻璃碳电极(GCE)处通过ECL成像的俯视配置。钌衍生物(双(2,2′-联吡啶)-4′-甲基-4-羧基联吡啶-钌N-琥珀酰亚胺酯双(六氟磷酸盐),Ru1)是一种典型的ECL试剂,它共价连接到氨基化的表面PS@MBs通过酰胺反应。荧光(FL)和ECL发射的“边缘强发射和中心弱发射”现象由Ru1-PS@MB在GCE上。微型的Z-Stack成像Ru1-PS@MB在三正丙胺(TPA)存在下在GCE上进行发光。研究发现Ru1-PS@MBECL图像中垂直于电极表面的方向略小于FL图像中的方向。微珠的直径越大(从5到18μm)Ru1-PS@MB垂直于电极表面(5至7μm)。我们的发现也得到了数值模拟的支持,为电极表面微小物体的ECL成像提供了见解,这将在微尺度的生物测定和细胞成像中提出有前景的ECL应用。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Imaging and Simulation of Ruthenium Derivative Coating Microbeads at the Opaque Electrode with Electrogenerated Chemiluminescence

Imaging and Simulation of Ruthenium Derivative Coating Microbeads at the Opaque Electrode with Electrogenerated Chemiluminescence

Electrogenerated chemiluminescence (ECL) imaging is gaining increasing attention in various fields because of its high sensitivity, low background, and good temporal and spatial resolution. However, ECL imaging of microsized objects at the opaque electrode via top-view configuration is challenged with the reactants’ diffusion and light propagation. Here, we imaged and numerically simulated ruthenium derivative coating polystyrene microbeads (Ru1-PS@MB) at the glassy carbon electrode (GCE) via top-view configuration by ECL imaging. The ruthenium derivative (bis(2,2′-bipyridine)-4′-methyl-4-carboxybipyridine-ruthenium N-succinimidyl ester-bis (hexafluorophosphate), Ru1), a typical ECL reagent, was covalently linked onto the surface of aminated PS@MBs via the amide reaction. “Strong emission in edge and weak emission in center” phenomena for fluorescence (FL) and ECL emissions were obtained from Ru1-PS@MB on GCE. Z-Stack imaging of the microsized Ru1-PS@MB luminescence was performed on GCE in the presence of tri-n-propylamine (TPA). It is found that the clear luminescence range of Ru1-PS@MB perpendicular to the electrode surface in ECL image is slightly smaller than that in the FL image. The bigger was the diameter of the microbeads (from 5 to 18 μm), the larger was the ECL luminescence range of Ru1-PS@MB perpendicular to the electrode surface (from 5 to 7 μm). Our findings, which are also supported by numerical simulation, provide insights into the ECL imaging of microsized objects at the electrode surface, which will raise promising ECL applications in bioassays and cell imaging at the microscale level.

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来源期刊
Chemical & Biomedical Imaging
Chemical & Biomedical Imaging 化学与生物成像-
CiteScore
1.00
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期刊介绍: Chemical & Biomedical Imaging is a peer-reviewed open access journal devoted to the publication of cutting-edge research papers on all aspects of chemical and biomedical imaging. This interdisciplinary field sits at the intersection of chemistry physics biology materials engineering and medicine. The journal aims to bring together researchers from across these disciplines to address cutting-edge challenges of fundamental research and applications.Topics of particular interest include but are not limited to:Imaging of processes and reactionsImaging of nanoscale microscale and mesoscale materialsImaging of biological interactions and interfacesSingle-molecule and cellular imagingWhole-organ and whole-body imagingMolecular imaging probes and contrast agentsBioluminescence chemiluminescence and electrochemiluminescence imagingNanophotonics and imagingChemical tools for new imaging modalitiesChemical and imaging techniques in diagnosis and therapyImaging-guided drug deliveryAI and machine learning assisted imaging
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